Novel approaches to retard ventricular remodeling in heart failure.

Abstract

While the etiologies of congestive heart failure (CHF) are diverse, a common event in the progression of this disease process is LV remodeling, increased wall stress, and subsequent pump dysfunction. Therapeutic approaches for CHF have been focused upon reducing LV afterload through vasodilator therapy, or by blocking/interrupting the effects of neurohormonal stimuli. However, another therapeutic approach would be to directly intervene in the LV remodeling process with CHF. An important determinant in the maintenance of myocyte shape, alignment and transduction of myocyte shortening into an overall ejection is the structural support provided by the fibrillar collagen matrix. As in most tissue remodeling processes, LV myocardial remodeling with CHF is accompanied by changes in the structure and composition of the collagen matrix. Matrix metalloproteinases (MMPs) are an endogenous family of zinc-dependent enzymes which have been identified to be responsible for matrix remodeling and alterations in MMP expression and activity have been identified in clinical and animal models of CHF. Moreover, alterations in the tissue inhibitors of MMPs (TIMPs) have also been identified to occur in the end-stage CHF myocardium. Thus, it is very likely that increased MMP activity and reduced inhibitory control of the TIMPs contribute to the LV remodeling process with CHF. A number of bioactive peptides and cytokines influence MMP and TIMP expression and activity. In addition, pharmacologically active MMP inhibitors have been synthesized and are currently under study. Accordingly, the control of MMP and TIMP expression and activity within the failing myocardium represents a new and potentially significant therapeutic target for CHF.